U.S. patent application number 12/117223 was filed with the patent office on 2008-11-20 for telescoping clamp assembly.
This patent application is currently assigned to Delaware Capital Formation, Inc.. Invention is credited to Maurice Perlman.
Application Number | 20080283703 12/117223 |
Document ID | / |
Family ID | 39637631 |
Filed Date | 2008-11-20 |
United States Patent
Application |
20080283703 |
Kind Code |
A1 |
Perlman; Maurice |
November 20, 2008 |
Telescoping Clamp Assembly
Abstract
A telescoping clamp assembly for a material handling system
includes an inner shaft, an outer shaft, a clamping device, and a
retaining element. The inner shaft has a longitudinal guide portion
along an outer surface of the inner shaft. The outer shaft has a
bore adapted to receive the inner shaft. The clamping device is
located at the outer shaft and is configured to tighten the outer
shaft about the inner shaft. The retaining element is adjustable to
adjust a degree of clamping of the clamping collar at the outer
shaft. The retaining element also engages the longitudinal guide
portion of the inner shaft to limit extension and/or extraction of
the inner shaft from the outer shaft.
Inventors: |
Perlman; Maurice; (Oak Park,
MI) |
Correspondence
Address: |
HARNESS, DICKEY & PIERCE, P.L.C.
P.O. BOX 828
BLOOMFIELD HILLS
MI
48303
US
|
Assignee: |
Delaware Capital Formation,
Inc.
Wilmington
DE
|
Family ID: |
39637631 |
Appl. No.: |
12/117223 |
Filed: |
May 8, 2008 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
60917786 |
May 14, 2007 |
|
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|
Current U.S.
Class: |
248/230.3 |
Current CPC
Class: |
F16B 7/1418
20130101 |
Class at
Publication: |
248/230.3 |
International
Class: |
F16B 2/02 20060101
F16B002/02 |
Claims
1. A telescoping clamp assembly for a material handling system,
said telescoping clamp assembly comprising: an inner shaft having a
longitudinal guide portion along an outer surface of said inner
shaft; an outer shaft having a bore adapted to receive said inner
shaft; a clamping device at said outer shaft, wherein said clamping
device is configured to tighten said outer shaft about said inner
shaft; and a retaining element, said retaining element being
adjustable to adjust a degree of clamping of said clamping collar
at said outer shaft, said retaining element engaging said
longitudinal guide portion of said inner shaft to limit extension
and/or extraction of said inner shaft from said outer shaft.
2. The telescoping clamp assembly of claim 1, wherein said inner
shaft comprises a substantially cylindrical rod.
3. The telescoping clamp assembly of claim 2, wherein said
longitudinal guide portion comprises a generally planar region of
an outer cylindrical surface of said inner shaft.
4. The telescoping clamp assembly of claim 1, wherein said clamping
device includes a lateral bore.
5. The telescoping clamp assembly of claim 4, wherein said lateral
bore is at least partially threaded bore.
6. The telescoping clamp assembly of claim 1, wherein said
retaining element comprises a threaded fastener.
7. The telescoping clamp assembly of claim 1 further comprising a
first clamp at an end of said inner shaft and a second clamp at an
end of said outer shaft.
8. The telescoping clamp assembly of claim 7, wherein said first
clamp is coupled at said inner shaft by a first threaded fastener,
and said second clamp is coupled at said outer shaft by a second
threaded fastener.
9. The telescoping clamp assembly of claim 7, wherein at least one
of said first and second clamps is fixedly coupled to the
respective one of said inner shaft and said outer shaft.
10. The telescoping clamp assembly of claim 7, wherein said first
clamp and said second clamp are adjustable irrespective of said
retaining element and said clamping device.
11. The telescoping clamp assembly of claim 1, wherein said
clamping device is unitarily formed with said outer shaft.
Description
CROSS-REFERENCE TO RELATED APPLICATION
[0001] This application claims the benefit of U.S. Provisional
Application No. 60/917,786, filed on May 14, 2007. The disclosure
of the above application is incorporated herein by reference.
FIELD
[0002] The present disclosure relates generally to material
handling systems and, more particularly, to an adjustable clamp for
clamping or mounting devices to a support structure of a material
handling system.
BACKGROUND
[0003] Automated material handling systems, such as robotic arms,
are typically used to move objects within and/or between
manufacturing stages in a manufacturing process. Typical objects
that may be moved during a manufacturing process or between
manufacturing processes include, for example, glass windows, sheet
metal stampings, separate components to be welded, bolted, or
otherwise attached to one another, or subassemblies that are to be
connected to a larger assembly. For adaptability and
reconfigurability of the system, it may be desirable to provide an
adjustable clamp assembly between the material handling equipment
and the object to be handled.
[0004] Typical adjustable clamp assemblies may include a
telescoping shaft slidably received within a tube. The shaft
includes an expandable shaft portion and an axial bolt that is
rotatable to expand the expandable portion into engagement and
frictional contact with an inner surface of the tube at a selected
position or degree of extension of the shaft relative to the tube.
The overall length of the telescoping clamp assembly is thus
adjustable and reconfigurable according to the particular needs of
the object handling system. The bolt that is used to secure the
shaft relative to the tube also typically holds an end clamp on the
telescoping clamp assembly tight around a spherical ball or
cylindrical shaft that is part of the material handling system.
Thus, loosening or adjusting the bolt, such as to loosen or adjust
the end clamp, also loosens the telescoping shaft and may lead to
unintentional disassembly of the clamp assembly.
SUMMARY
[0005] The present disclosure provides a telescoping clamp assembly
for a material handling system. The telescoping clamp assembly is
extendable and retractable so that the length of the telescoping
clamp assembly may be customized or adjusted or reconfigured for a
given application. Further, the telescoping clamp assembly of the
present disclosure may limit or substantially preclude inadvertent
separation of the telescoping shaft from the tube when a clamp is
loosened, and allows for loosening and adjusting of the telescoping
shaft relative to the tube while one or both end clamps remain
tightened or secured about the material handling system devices or
components or support structure.
[0006] According to an aspect of the present disclosure, a
telescoping clamp assembly for a material handling system includes
an inner shaft, an outer shaft, a clamping device, and a retaining
element. The inner shaft has a longitudinal guide portion along an
outer surface of the inner shaft. The outer shaft has a bore
adapted to receive the inner shaft. The clamping device is located
at the outer shaft and is configured to tighten the outer shaft
about the inner shaft. The retaining element is adjustable to
adjust a degree of clamping of the clamping collar at the outer
shaft. The retaining element also engages the longitudinal guide
portion of the inner shaft to limit extension and/or extraction of
the inner shaft from the outer shaft.
[0007] The inner shaft may comprise a substantially cylindrical
rod, and the longitudinal guide portion may comprise a recess or a
flat or generally flat or planar region at least partially along
the inner shaft. The clamping device may be unitarily formed with
the outer shaft or may comprise a separate component at or around
the outer shaft. Optionally, the clamping device may include a
threaded bore, and the retaining element may comprise a threaded
fastener for threadably engaging the threaded bore to tighten the
outer shaft around the inner shaft.
[0008] The telescoping clamping assembly may further comprise a
first clamp at an end of the inner shaft and a second clamp at an
end of the outer shaft. The first clamp may be coupled to the inner
shaft by a first threaded fastener, and the second clamp may be
coupled to the outer shaft by a second threaded fastener. The first
clamp and the second clamp may be adjustable to clamp and release
about a support rod or material handling component irrespective of
the degree of clamping of the clamping device about the outer shaft
and/or inner shaft.
[0009] Therefore, the present disclosure provides a telescoping
clamp assembly that allows a user to adjust the length of the
telescoping clamp assembly without inadvertently separating the
inner shaft from the outer shaft. For example, the retaining
element may be a threaded fastener, such as a bolt, and the bolt
may be loosened in the clamping device to loosen the inner shaft in
the bore of the outer shaft, and may engage an end of the
longitudinal guide portion or recess to limit or substantially
preclude complete extension of the inner shaft from the outer
shaft. If disassembly is desired, the retaining element may be at
least partially removed from the clamping device so as to be
removed from or disengaged from the guide portion or recess.
Further, end clamps at either end of the telescoping clamp assembly
may be tightened and loosened independently of the tightness of the
inner shaft in the bore of the outer shaft.
[0010] These and other objects, advantages, purposes and features
of the present disclosure will become apparent upon review of the
following description in conjunction with the drawings.
DRAWINGS
[0011] The drawings described herein are for illustration purposes
only and are not intended to limit the scope of the present
disclosure in any way.
[0012] FIG. 1A is a perspective view of a telescoping clamp
assembly with the telescoping shaft in a retracted position.
[0013] FIG. 1B is a perspective view of the telescoping clamp
assembly of FIG. 1A, with the telescoping shaft in an extended
position;
[0014] FIG. 2A is a top plan of the telescoping clamp assembly of
FIG. 1A.
[0015] FIG. 2B is a side elevation of the telescoping clamp
assembly of FIG. 1A.
[0016] FIG. 3A is a top plan of the telescoping clamp assembly of
FIG. 1B.
[0017] FIG. 3B is a side elevation of the telescoping clamp
assembly of FIG. 1B.
[0018] FIG. 4 is a front end elevation of the telescoping clamp
assembly.
[0019] FIG. 5A is a perspective view of another telescoping clamp
assembly with the telescoping shaft in a retracted position.
[0020] FIG. 5B is a perspective view of the telescoping clamp
assembly of FIG. 5A, with the telescoping shaft in an extended
position.
DETAILED DESCRIPTION
[0021] The following description is merely exemplary in nature and
is not intended to limit the present disclosure, application, or
uses.
[0022] Referring now to the drawings and the illustrative
embodiments depicted therein, a telescoping clamp assembly 10 for a
material handling system includes an outer shaft or tube 12 that is
telescopingly engaged with an inner or telescoping shaft 14 (FIG.
1B). Tube 12 and telescoping shaft 14 are adjustable relative to
one another to adjust the length of telescoping clamp assembly 10
between a retracted length (FIGS. 1A, 2A, and 2B) and an extended
length (FIGS. 1B, 3A, and 3B). When at a desired degree of
extension, the telescoping shaft 14 may be secured relative to the
tube 12 via tightening of a retaining element or clamping element
or pin or bolt or fastener 32, as described below. The fastener 32
also functions to limit extension and/or extraction of the inner
shaft from the outer shaft, as also discussed below.
[0023] Telescoping clamp assembly 10 is attachable or mountable to
a support structure (such as a support arm or rod) of a material
handling system at one end, and to a workpiece holder or gripping
device or element (such as a gripper or vacuum cup assembly or the
like) at the other end. For example, and as shown in FIGS. 1A-4, a
360 degree rotatable swivel arm clamp 16 for attaching to a support
rod may be attached to one end of tube 12 while a 360 degree
rotatable end clamp 18 for attaching to a gripping device or
workpiece holder may be attached to an end of telescoping shaft 14
opposite swivel arm clamp 16. In the illustrated embodiment,
rotatable end clamp 18 comprises a partial spherical ball clamp,
while swivel arm clamp 16 comprises a straight bore clamp to
receive and clamp onto a cylindrical support rod or arm or the
like. Optionally, swivel arm clamp 16 may comprise a link end
straight bore clamp (such as for a one inch diameter support rod or
the like) for use on transfer press tooling, and may incorporate a
pair of pivot pins 19 and a connecting link 21 (FIGS. 2A and 2B)
that provide a dual pivot configuration and that apply a radial
clamping force to the clamped component that may be greater than a
clamping force of a single pivot configuration. However, other
clamping devices or configurations may be implemented at the inner
or outer shafts or tubes while remaining within the spirit and
scope of the present disclosure.
[0024] Swivel arm clamp 16 is adjustably mounted to tube 12 via a
fastener 27, such as a threaded bolt or the like, so that swivel
arm clamp 16 may be rotated about a longitudinal axis of tube 12
when fastener 27 is loosened. Clamp 16 may be configured such that,
when fastener 27 is removed, clamp 16 may open (via pivotal
movement of the link and/or the outer portion of the clamp about
the pivot pins) to allow the clamp to receive a support rod therein
without having to slide the clamp over an end of the support rod,
such that the clamping assembly 10 may be readily mounted to an
existing support rod. Similar to clamp 16, rotatable end clamp 18
may also be adjustably mounted to telescoping shaft 14 via a
fastener 40, such as a threaded bolt or the like, so that rotatable
end clamp 18 may be rotated about a longitudinal axis of
telescoping shaft 14 when fastener 40 is loosened.
[0025] The clamps 16, 18 thus may be loosened or adjusted relative
to tube 12 and telescoping shaft 14, respectively, without
affecting the clamping or retention or securement of the inner
shaft relative to the outer shaft (via clamping collar 20), as
discussed below. In the illustrated embodiment, the clamp assembly
10 includes a lock washer or star washer 27a disposed between the
clamp 16 and the end of the tube 12 to assist in substantially
locking or securing the clamp 16 relative to the tube 12 when
fastener 27 is tightened. Likewise, clamp assembly 10 includes a
lock washer or star washer 40a disposed between the clamp 18 and
the end of the telescoping shaft 14 to assist in substantially
locking or securing the clamp 18 relative to the shaft 14 when
fastener 40 is tightened.
[0026] In the illustrated embodiment, the tube 12 is a cylindrical
hollow member that defines a cylindrical bore 22 to receive the
telescoping shaft 14. The bore 22 is open at one end of tube 12 for
receiving the telescoping shaft 14 into tube 12. The open end of
tube 12 includes a longitudinal slot 24 at least partially
therealong, and incorporates a clamping device or collar 20 that is
mounted to or integral with the end region of the tube 12. Bore 22
is sized and adapted to receive a portion of telescoping shaft 14
such that telescoping shaft 14 is substantially coaxial with and
slidingly or telescopingly received in tube 12. The longitudinal
slot 24 allows the diameter of the end of the tube 12 and the bore
22 to be selectively reduced by clamping collar 20 to substantially
fix the position of telescoping shaft 14 within tube 12.
[0027] At the opposite end of the tube 12 (opposite from the end
having clamping collar 20), tube 12 has a threaded bore 25 (which
may be coaxial with bore 22) to receive threaded fastener 27. As
discussed above, fastener 27 attaches swivel arm clamp 16 to the
end of tube 12 and is adjustable such that fastener 27 may be
loosened or tightened to loosen or tighten swivel arm clamp 16
without affecting the retention or tightness of shaft 14 in tube
12. Tube 12 may be made of any suitable material, such as, for
example, steel or aluminum or aluminum alloy or any other material
that is sufficiently strong and rigid to withstand the loads
encountered during use.
[0028] In the illustrated embodiment, clamping collar 20 is
integral with the tube 12 at its end, although the collar may be a
separate collar attached at the end of the tube or elsewhere along
the tube while remaining within the spirit and scope of the present
disclosure. Clamping collar 20 defines a gap 26 (FIGS. 1A, 1B, and
4) that is substantially aligned with longitudinal slot 24 in tube
12. Clamping collar 20 includes portions or extensions or flanges
20a, 20b that extend radially outward from the tube 12 and define a
first bore or aperture 28 and a second bore or aperture 30. Each
aperture 28, 30 is oriented substantially perpendicular or lateral
or transverse to a longitudinal axis of the tube 12. The first
aperture 28 and the second aperture 30 receive the retaining
element or fastener 32, such that fastener 32 bridges gap 26 when
fastener 32 is installed in apertures 28, 30. First aperture 28 of
flange 20a may be non-threaded or substantially smooth, while
second aperture 30 of flange 20b may be threaded so as to engage
complementary threads on retaining element or fastener 32. Fastener
32 is thus rotatable within first aperture 28 and second aperture
30 to tighten the fastener 32 to reduce the widths of gap 26 and
longitudinal slot 24 in order to tighten tube 12 around telescoping
shaft 14, and to thereby substantially fixedly hold telescoping
shaft 14 within tube 12.
[0029] Optionally, and instead of or in addition to fastener 32
serving to both tighten tube 12 around telescoping shaft 14 and
prevent shaft 14 from being separated from tube 12, a separate
retaining pin or shaft (not shown) may be removably received in
another lateral aperture (not shown) in clamping collar 20 or tube
12 to contact shaft 14 at end 34a of recess 34. Optionally, the
retaining element or mechanism may include a female fastener, such
as a nut having a threaded bore, or a clip or the like, that may be
provided at a non-threaded second aperture such that a threaded
fastener or bolt may be threadably engaged with the female fastener
or otherwise received in or through the female fastener to tighten
the tube around the telescoping shaft. Clamping collar 20 may be
made of the same material as the tube, or may comprise any suitable
material that is sufficiently strong and durable, and that is
sufficiently resistant to thread-stripping during repeated
engagement and tightening and loosening of the fastener within the
threaded bore.
[0030] Telescoping shaft 14 includes a substantially cylindrical
portion or section with an elongated recess or flattened portion or
guide portion 34, such as a groove or planar portion formed or
established longitudinally along a surface portion of shaft 14. A
stop-flange or stop surface or locking surface 36 (such as a flange
or surface that has a greater diameter than the diameter of the
shaft to provide a larger surface area or radial extension or
flange) may be formed at an end of telescoping shaft 14. The stop
surface limits insertion of shaft 14 into bore 22 of tube 12 and/or
provides an engaging surface for star washer 40a to engage and bite
into when fastener 40 is tightened to clamp the star washer between
the clamp 18 and the surface or flange 36 at the end of shaft 14.
As discussed above, telescoping shaft 14 incorporates a threaded
bore 38 at an end, with an opening at stop-flange 36 to receive
fastener 40 from end clamp 18. Fastener 40 attaches end clamp 18 to
the end of shaft 14 and is adjustable such that fastener 40 may be
loosened or tightened to loosen or tighten swivel end clamp 18
without affecting the retention or tightness of shaft 14 in tube
12.
[0031] When assembled, flat portion or recess 34 of telescoping
shaft 14 receives an outer portion of fastener 32 of collar 20 of
tube 12, such that when fastener 32 is loosely installed in the
apertures 28, 30 of clamping collar 20, telescoping shaft 14 is
extendable until fastener 32 contacts the shaft 14 at an end 34a of
recess 34, as best seen in FIG. 3B. Recess 34 may have any length
or location along telescoping shaft 14 to limit the extension
and/or extraction of shaft 14 relative to tube 12 for a given
application. Optionally, an opposite end 34b of the recess 34 (FIG.
3B) may limit the degree of insertion of shaft 14 into tube 12, or
the stop flange 36 may limit such insertion, while remaining within
the spirit and scope of the present disclosure.
[0032] In the illustrated embodiment, telescoping shaft 14 is shown
having a substantially circular cross section, although any cross
section that may be received by bore 22 in tube 12 will suffice.
Likewise, in the illustrated embodiment, bore 22 of tube 12 is
shown having a circular cross section, although any cross section
that may closely receive telescoping shaft 14 will suffice. For
example, telescoping shaft 14 and bore 22 may have substantially
corresponding or complementary cross sections or shapes, such as
rectangular cross sections or other cross sectional shapes or
forms, such that the telescoping shaft 14 is slidably received in
bore 22 during adjustment of the telescoping clamp assembly 10.
[0033] When assembled, a portion of fastener 32, such as a threaded
portion of the bolt, is at least partially within recess or recess
34, and in close proximity to, or in sliding contact with, recess
34 of telescoping shaft 14. The length of the clamping assembly
thus may be readily adjusted via loosening and tightening of
fastener 32 to loosen or reduce the clamping force of clamping
collar 20. When telescoping shaft 14 is fully extended (FIGS. 1B,
3A, and 3B), such as when a user has loosened fastener 32 and
gravity or another force has caused telescoping shaft 14 to extend,
the threaded portion of fastener 32 contacts telescoping shaft 14
at end 34a of recess 34 such that shaft 14 is prevented from
separating from tube 12. Thus, telescoping shaft 14 is
substantially inseparable from tube 12 until fastener 32 is at
least partially removed from clamping collar 20, or until fastener
32 is at least removed from the second aperture 30 and no longer
bridges gap 26 of clamping collar 20.
[0034] Telescoping clamp assembly 10 is thus adjustable so that one
or more material handling devices engage an object or support
structure to move or hold or otherwise handle the object. Because
of the engagement of fastener 32 with end 34a of recess 34,
telescoping shaft 14 is retained within tube 12 during adjustment
of the length of telescoping clamp assembly 10, and thus limits or
substantially precludes unintentional disassembly or detachment of
shaft 14 from tube 12.
[0035] Accordingly, telescoping clamp assembly 10 is assembled by
first removing fastener 32 from clamping collar 20, if fastener 32
is installed therein, and inserting telescoping shaft 14 into bore
22 of tube 12, and rotating shaft 14 until first aperture 28 and
second aperture 30 of clamping collar 20 are located generally at
or are generally aligned with recess 34 of shaft 14. Fastener 32 is
then inserted through first aperture 28, threaded into second
aperture 30, and tightened until tube 12 substantially fixedly
holds telescoping shaft 14 at the desired or appropriate degree of
extension. Swivel arm clamp 16 and end clamp 18 may thus be
independently installed, removed, loosened, or tightened with
respective fasteners 27, 40 irrespective of whether or rot shaft 14
is tightly or loosely held in tube 12.
[0036] To adjust the length of telescoping clamp assembly 10,
fastener 32 is loosened until telescoping shaft 14 is free to move
longitudinally within tube 12, while fastener 32 remains within
first aperture 28 and second aperture 30 of clamping collar 20 to
prevent the telescoping shaft 14 from falling out of the tube 12.
Telescoping shaft 14 is then extended or retracted within tube 12
to achieve the desired or appropriate or selected length of
telescoping clamp assembly 10, and fastener 32 is tightened in
clamping collar 20 to tighten tube 12 around shaft 14 until shaft
14 is substantially fixedly held within tube 12.
[0037] Although shown and described as having the clamp or clamps
16, 18 adjustably mounted at the end of the respective shaft 12,
14, one or both clamps may be fixedly mounted or secured at the end
of the respective shaft while remaining within the spirit and scope
of the present disclosure. For example, and with reference to FIGS.
5A and 5B, a swivel arm clamp 16' of a telescoping clamp assembly
10' may be fixedly secured or mounted at the end of an outer shaft
or tube 12'. Optionally, a base or attaching or mounting portion
16a' of clamp 16' is press fit into a recess (not shown) at the end
of outer shaft 12' to fixedly secure the clamp 16' relative to
shaft 12'. An outer portion 16b' of clamp 16' may be pivoted (about
the pivot link 21' and pivot pins 19') to receive and clamp around
a support rod or the like of the material handling system. For
example, the fastener (not shown in FIGS. 5A and 5B, but may be
similar to fastener 27 of clamp assembly 10, discussed above) at
clamp 16' may be loosened and at least partially removed to allow
outer portion 16b' of clamp 16' to pivot to an open or rod
receiving orientation, whereby the clamp assembly may be positioned
at a support arm or rod and the outer portion 16b' may be pivoted
around the rod toward a closed position (such as shown in FIGS. 5A
and 5B).
[0038] The fastener may be tightened to clamp or tighten the clamp
16' about the support rod to secure the telescoping clamp assembly
relative to the support arm or rod. The fastener may thread into a
threaded bore of the outer shaft (such as in a similar manner as
described above with respect to fastener 27) or the fastener may
thread into a threaded bore of the mounting portion 16a' of the
clamp 16' (which is fixedly secured or mounted to the outer shaft)
or both, while remaining within the spirit and scope of the present
disclosure. Thus, the clamp assembly may be readily mounted to a
support arm or rod without disassembling the end clamp 16' from the
shaft 12', since the base or mounting portion 16a' of clamp 16'
remains affixed to the end of the shaft 12' even when the fastener
is removed from the clamp assembly. The inner shaft 14' of
telescoping clamp assembly 10' may have a workpiece holder clamp
18' (such as for clamping to or holding a workpiece holder or
gripping device or element, such as a gripper or vacuum cup
assembly or the like) at its outer end, and the workpiece holder
clamp 18' may be adjustably mounted to the inner shaft 14' (such as
via a threaded fastener 40' or the like, and such as described
above with respect to clamp 18 of telescoping clamp assembly 10),
or may be substantially fixedly attached to inner shaft 14', while
remaining within the spirit and scope of the present
disclosure.
[0039] Optionally, the clamping device or collar of the telescoping
clamp assembly may be oriented at a different angle or orientation
with respect to the fixed clamp, as compared to clamping collar 20
of telescoping clamp assembly 10, discussed above. For example, and
as shown in FIGS. 5A and 5B, clamping collar 20' may be oriented so
that fastener 32' is generally vertically oriented when clamp 16'
is secured to a generally horizontal mounting structure or rod or
arm. Such an orientation may ease tightening or loosening of
fastener 32', and thus of clamping collar 20', depending on the
clearances available in the particular application of the
telescoping clamp assembly, such that the length of the telescoping
clamp assembly may be readily adjusted after the clamp assembly is
secured to the support structure of the material handling
system.
[0040] Similar to fastener 32 of telescoping clamp assembly 10,
fastener 32' of telescoping clamp assembly 10' functions to adjust
the degree of clamping of the clamping collar 20' (via compression
of the gap 26' and longitudinal slot 24' at the end region of the
outer shaft 12') to establish the desired or appropriate length of
the clamp assembly, and functions to engage the end (not shown in
FIGS. 5A and 5B) of the longitudinal guide portion or recess 34' to
limit extension and extraction of the inner shaft 14' from the
outer shaft 12'. The telescoping clamp assembly may otherwise be
substantially similar to the telescoping clamp assembly 10,
discussed above, such that a detailed discussion of the telescoping
clamp assemblies need not be repeated herein.
[0041] It will be appreciated by those skilled in the art that
variations may be carried out without departing from the spirit and
scope of the present disclosure. For example, a quick-clamping
lever or other tightening feature may be used in place of a bolt to
tighten or clamp the tube around the telescoping shaft and to
contact or engage the shaft at an end of a guide portion or
flattened portion or recess to limit or substantially preclude the
shaft from separating from the tube. Optionally, a telescoping
shaft may have a raised feature or guide portion instead of a flat
portion or recess, whereby a retaining element may move along a
portion of the shaft (which may be received in and be movable along
a gap or slot in the tube) and may engage the raised portion to
limit extension and/or extraction of the shaft from the tube. The
bolt thus may be spaced slightly apart from, or may be in sliding
contact with, the telescoping shaft, and the end or stop of the
raised guide portion on the shaft may be contacted by the bolt so
as to limit or substantially preclude the shaft from separating
from the tube while the bolt is installed at the clamping collar,
such as in a similar manner as described above.
[0042] Changes and modifications to the specifically described
embodiments may be carried out without departing from the
principles of the present disclosure, which is intended to be
limited only by the scope of the appended claims, as interpreted
according to the principles of patent law.
* * * * *